CN116816043A - Building acoustic celotex board fixed mounting equipment - Google Patents

Abstract

The application discloses a building sound insulation board fixed mounting device which comprises two supporting frames, a first screw rod, a first moving board, supporting boards, suckers, blocking blocks, torsion springs and the like, wherein the first moving board is connected between the two supporting frames in a sliding mode, the first screw rods are connected to the two supporting frames in a rotating mode, the two first screw rods are connected with the first moving board in a threaded mode, the supporting boards are connected to the first moving board in a sliding mode, the suckers are connected to the upper portions of the supporting boards, the blocking blocks are connected to the right sides of the suckers in a rotating mode, and the torsion springs are connected between the blocking blocks and the suckers. The sucker can adsorb the rock wool sound insulation plate, the sucker can drive the rock wool sound insulation plate to move upwards to a proper height, and after the sucker moves upwards to a proper height with the rock wool sound insulation plate, the sucker can be stuck and installed on a building wall with the rock wool sound insulation plate moving leftwards under the extrusion action of the first wedge-shaped plate.

Description

Building acoustic celotex board fixed mounting equipment

Technical Field

The application relates to installation equipment, in particular to fixed installation equipment for a building sound insulation board.

Background

Along with the improvement of people's living standard and the development of science and technology, the noise is more and more also bigger and bigger, in order to reduce noise, can install the acoustic celotex board on building wall when the fitment, because rock wool acoustic celotex board can directly paste on the wall with glue, simple to operate, sound insulation effect are good, so rock wool acoustic celotex board is used for the building to give sound insulation generally.

The patent publication number is searched: CN212426816U, an auxiliary device for highway acoustic panel installation, stand has been linked firmly at the both ends at its bottom plate top, the spout has been seted up in the front of stand, sliding connection has been linked firmly the slider in the spout jointly in the front of two sliders, the fixed plate has all been linked firmly at the both ends about the stand top, rotate and be connected with the sleeve pipe between the two fixed plates, the reel has been linked firmly on the sleeve pipe, the surface rolling of reel has wire rope, the connecting block has been linked firmly at the both ends about the backup pad top, the rings have been linked firmly at the top of connecting block, wire rope's lower extreme links firmly with rings, be provided with the dwang that both ends link firmly with two sleeves respectively between two sleeves, the surface of dwang has linked firmly driven pulleys, the top of bottom plate is provided with the mounting panel that both ends link firmly with two stands respectively, the top of mounting panel has linked firmly the motor, the output of motor has linked firmly driving pulley, driving pulley passes through the belt and driven pulley drive connection. The device reduces the labor intensity of installers and improves the installation efficiency.

This patent is through rolling up wire rope to drive the backup pad and carry out the upward movement with the rock wool acoustic celotex board on it, hang the rock wool acoustic celotex board and carry out the installation of next step, but this patent is not fixed with the rock wool acoustic celotex board, then hug closely rock wool acoustic celotex board and building wall, make rock wool acoustic celotex board install on building wall, thereby need the staff to hold up the rock wool acoustic celotex board during the installation, hug closely rock wool acoustic celotex board and building wall and paste the installation, and then installation effectiveness is not ideal enough, installer's intensity of labour is still great.

Disclosure of Invention

Accordingly, it is necessary to provide a construction sound insulation board fixing and mounting apparatus capable of automatically attaching and mounting a rock wool sound insulation board to a construction wall.

The application provides a building sound insulation board fixed mounting device which comprises two supporting frames, first screw rods, first moving plates, supporting plates, suckers, blocking blocks, torsion springs, spiral groove rods, fixing blocks, protruding rods, driving mechanisms, sliding mechanisms and opening and closing mechanisms, wherein the two supporting frames are connected with the first moving plates in a sliding mode, the first screw rods are connected to the two supporting frames in a rotating mode, the two first screw rods are connected with the first moving plates in a threaded mode, the supporting plates are connected to the first moving plates in a sliding mode, the suckers are connected to the upper portions of the supporting plates in a rotating mode, the blocking blocks are connected with the suckers in a rotating mode, torsion springs are connected between the blocking blocks and the torsional springs, the spiral groove rods are connected to the bottoms of the blocking blocks, the lower portions of the right side surfaces of the rear supporting frames are connected with the fixing blocks, the protruding rods are connected with the spiral groove rods in a sliding mode, the driving mechanisms are arranged between the supporting frames and the first screw rods, the sliding mechanisms are arranged between the rear supporting frames and the supporting plates, and the opening and closing mechanisms are arranged between the first moving plates.

Preferably, the suction cup has elasticity.

Preferably, the driving mechanism comprises a first fixed plate, a double-shaft motor, a rotating rod and bevel gears, wherein the first fixed plate is connected between the lower parts of the right side surfaces of the two supporting frames, the double-shaft motor is installed in the middle of the top of the first fixed plate, the rotating rods are connected with the output shafts on the two sides of the double-shaft motor, the bevel gears are connected with the outer ends of the two rotating rods and the lower parts of the two first screw rods, and the adjacent two bevel gears are meshed.

Preferably, the sliding mechanism comprises a guide plate, a second screw rod, a first wedge plate, a first guide rod, a first spring and a second wedge plate, wherein the upper part of the right side face of the rear side support frame is connected with the guide plate, the first wedge plate is connected in the guide plate in a sliding manner, the second screw rod is connected with the first wedge plate in a rotating manner on the guide plate, the lower part of the right side face of the support plate is connected with the second wedge plate in a threaded manner, the second wedge plate can be in contact with the first wedge plate, the first guide rod is connected in the first moving plate, the first guide rod is connected with the support plate in a sliding manner, the first spring is sleeved on the first guide rod, one end of the first spring is connected with the first moving plate, and the other end of the first spring is connected with the support plate.

Preferably, the opening and closing mechanism comprises a second fixed plate, a guide rod, a second spring, a first wedge block and a second wedge block, wherein the front side of the right side of the first movable plate is connected with the second fixed plate, the upper part in the second fixed plate is connected with the guide rod, the guide rod is connected with the first wedge block in a sliding manner, the first wedge block is connected with the second fixed plate in a sliding manner, the second spring is connected between the first wedge block and the second fixed plate, the upper part of the blocking block is connected with the second wedge block, and the second wedge block can be in contact with the first wedge block.

Preferably, the support frame is characterized by further comprising a support mechanism, wherein the lower part of the outer side face of the support frame is connected with the support mechanism, the support mechanism comprises guide blocks, second movable plates, fixing rods, third springs and clamping blocks, the lower parts of the outer side faces of the two support frames are all connected with the guide blocks, the top of each guide block is connected with the second movable plate in a sliding mode, the inner sides of the two second movable plates are all connected with the fixing rods, the clamping blocks are all connected with the two fixing rods in a sliding mode, and the third springs are connected between the two clamping blocks and the two second movable plates respectively.

Preferably, the device further comprises a pushing mechanism, wherein the pushing mechanism is arranged between the supporting plate and the second movable plate, the pushing mechanism comprises a third wedge-shaped plate, a contact plate, a second guide rod and a fourth spring, the lower parts of the front side and the rear side of the supporting plate are respectively connected with the contact plate, the inner sides of the two second movable plates are respectively connected with the third wedge-shaped plate, the two third wedge-shaped plates are respectively contacted with the two contact plates, the right sides of the bottoms of the two second movable plates are respectively connected with the second guide rod, the two second guide rods are respectively connected with the two guide blocks in a sliding mode, and the fourth spring is respectively connected between the two second movable plates and the two guide blocks.

Preferably, the movable support is characterized by further comprising a movable mechanism, wherein the movable mechanism is arranged at the lower part of the support frame and comprises a connecting rod, rollers, clamping plates and placing plates, the connecting rods are symmetrically connected between the lower parts of the two support frames, the rollers are connected to the two connecting rods in a rotating mode, the clamping plates are connected between the right sides of the lower parts of the two support frames in a sliding mode, clamping grooves which are clamped with the clamping plates are uniformly spaced apart on the rollers on the right sides along the circumferential direction, and the placing plates are connected to the lower parts of the inner side surfaces of the two support frames.

Compared with the prior art, the application has the following advantages:

1. the sucker can adsorb the rock wool sound insulation plate, the sucker can drive the rock wool sound insulation plate to move upwards to a proper height, after the sucker drives the rock wool sound insulation plate to move upwards to a proper height, under the extrusion action of the first wedge-shaped plate, the sucker can drive the rock wool sound insulation plate to move leftwards to be adhered and installed on a building wall, the first wedge-shaped block extrudes the second wedge-shaped block to enable the blocking block to rotate and open, external air enters the sucker along with the blocking block, and the sucker loosens the rock wool sound insulation plate along with the external air, so that the effect of automatically enabling the rock wool sound insulation plate to be adhered and installed on the building wall in a clinging mode is achieved.

2. The third spring, the clamping block and the second movable plate are matched, so that the rock wool acoustic baffle plate can be supported and limited, and the rock wool acoustic baffle plate is prevented from moving or shaking by itself, so that the rock wool acoustic baffle plate is not required to be manually supported, and glue can be conveniently smeared on the rock wool acoustic baffle plate.

3. After the contact plate moves upwards to be separated from the third wedge-shaped plate, the second moving plate can move rightwards under the reset action of the fourth spring, and the second moving plate can push the rock wool sound insulation plate to move rightwards to be adsorbed on the sucker, so that the second moving plate does not need to be manually pushed to move rightwards to enable the rock wool sound insulation plate to be adsorbed on the sucker.

4. The placing plate can be used for placing and installing the rock wool acoustic baffle plate commonly used tools, so that the tools can be conveniently taken and installed, and the rock wool acoustic baffle plate can be conveniently and rapidly moved through the roller.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic perspective view of a first part of the present application.

Fig. 3 is a schematic perspective view of a second part of the present application.

Fig. 4 is a schematic perspective view of the driving mechanism of the present application.

Fig. 5 is a schematic perspective view of a sliding mechanism according to the present application.

Fig. 6 is a schematic perspective view of a first part of the sliding mechanism of the present application.

Fig. 7 is a schematic perspective view of a second part of the sliding mechanism of the present application.

Fig. 8 is a schematic perspective view of the opening and closing mechanism of the present application.

Fig. 9 is a schematic partial perspective view of the opening and closing mechanism of the present application.

Fig. 10 is a schematic perspective view of the supporting mechanism of the present application.

Fig. 11 is a partial cross-sectional view of the support mechanism of the present application.

Fig. 12 is a schematic perspective view of the pushing mechanism of the present application.

Fig. 13 is a schematic view of a part of a pushing mechanism of the present application.

Fig. 14 is a schematic perspective view of a moving mechanism according to the present application.

The marks in the drawings are: the clamping plate comprises a support frame, a first screw rod, a first 3-moving plate, a support plate, a sucking disc 5, a second 6-blocking plate, a torsion spring 7, a spiral groove rod 8, a fixed block 9, a convex rod 10, a driving mechanism 11, a first 111-fixing plate, a double-shaft motor 112, a second 113-rotating rod 114-bevel gear, a sliding mechanism 12, a guide plate 121, a second 122-screw rod 123, a first wedge plate 124, a first guide rod 125, a first spring 126, a second wedge plate 13, an opening and closing mechanism 131, a second fixing plate 132, a guide rod 133, a second spring 134, a first wedge plate 135, a second wedge block 14, a supporting mechanism 141-guiding block 142, a second moving plate 143-fixing rod 144, a third spring 145-clamping block 15-pushing mechanism 151-third wedge plate 152, a contact plate 153-second guide rod 154-fourth spring 16-moving mechanism 161-connecting rod 162, a clamping plate 163-164 and a clamping plate 164.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the application. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It should be noted that the terms "inner", "outer", "left", "right" and the like are used herein for illustrative purposes only and do not represent the only embodiment.

Example 1

The application provides a building sound insulation board fixed installation device, which is shown in the drawings in combination with figures 1-3, and comprises two supporting frames 1, a first screw rod 2, a first moving board 3, a supporting board 4, a sucker 5, a blocking board 6, a torsion spring 7, a spiral groove rod 8, a fixed block 9, a convex rod 10, a driving mechanism 11, a sliding mechanism 12 and an opening and closing mechanism 13, wherein the two supporting frames 1 are provided with two first moving boards 3 in sliding connection, the two supporting frames 1 are respectively connected with the first screw rod 2 in a rotating way, the two first screw rods 2 are respectively connected with the first moving boards 3 in a threaded connection way, the first moving boards 3 are respectively connected with the supporting board 4 in a sliding way through a chute, the upper part of the supporting board 4 is connected with a sucker 5, the sucker 5 is used for adsorbing the rock wool sound insulation board, the sucker 5 has elasticity, the right side of the sucker 5 is rotationally connected with the blocking board 6, the blocking block 6 is used for blocking the suction disc 5, a torsion spring 7 is connected between the blocking block 6 and the suction disc 5, the bottom of the blocking block 6 is connected with a spiral groove rod 8, the lower part of the right side surface of the rear side supporting frame 1 is connected with a fixed block 9, the left side of the fixed block 9 is connected with a convex rod 10, the convex rod 10 is connected with the spiral groove rod 8 in a sliding way, a driving mechanism 11 is arranged between the supporting frame 1 and the first screw 2, the driving mechanism 11 is used for driving the first screw 2 to positively and negatively rotate so as to lift the first moving plate 3, a sliding mechanism 12 is arranged between the rear side supporting frame 1 and the supporting plate 4, the sliding mechanism 12 is used for pushing the supporting plate 4 to move leftwards, so that the rock wool sound insulation plate is attached to a building wall for adhesion installation, an opening and closing mechanism 13 is arranged between the first moving plate 3 and the blocking block 6, the opening and closing mechanism 13 is used for driving the blocking block 6 to open without blocking the suction disc 5, thereby causing the suction cup 5 to loosen the rock wool baffle.

Referring to fig. 4, the driving mechanism 11 includes a first fixing plate 111, a double-shaft motor 112, a rotating rod 113 and bevel gears 114, wherein the first fixing plate 111 is connected between the lower parts of the right sides of the two supporting frames 1, the double-shaft motor 112 is mounted in the middle of the top of the first fixing plate 111 in a bolt connection manner, the output shafts on both sides of the double-shaft motor 112 are connected with the rotating rods 113 through couplings, the bevel gears 114 are connected to the outer ends of the two rotating rods 113 and the lower parts of the two first screw rods 2, and the two adjacent bevel gears 114 are meshed.

Referring to fig. 5-7, the sliding mechanism 12 includes a guide plate 121, a second screw 122, a first wedge plate 123, a first guide rod 124, a first spring 125 and a second wedge plate 126, where the upper part of the right side surface of the rear support frame 1 is connected with the guide plate 121, the first wedge plate 123 is slidably connected in the guide plate 121, the second screw 122 is rotatably connected on the guide plate 121, the second screw 122 is connected with the first wedge plate 123 by a threaded connection, the lower part of the right side surface of the support plate 4 is connected with the second wedge plate 126, the second wedge plate 126 can be in contact with the first wedge plate 123, the first guide rod 124 is slidably connected with the support plate 4, the first guide rod 124 is sleeved with the first spring 125, one end of the first spring 125 is connected with the first moving plate 3, and the other end of the first spring 125 is connected with the support plate 4.

Referring to fig. 8-9, the opening and closing mechanism 13 includes a second fixing plate 131, a guide rod 132, a second spring 133, a first wedge block 134 and a second wedge block 135, where the front side of the right side of the first moving plate 3 is connected with the second fixing plate 131, the guide rod 132 is connected to the upper part of the second fixing plate 131, the guide rod 132 is slidably connected with the first wedge block 134, the first wedge block 134 is slidably connected with the second fixing plate 131, the second spring 133 is connected between the first wedge block 134 and the second fixing plate 131, the second wedge block 135 is connected to the upper part of the block 6, and the second wedge block 135 can be contacted with the first wedge block 134.

Initially, the first wedge plate 123 is located at the highest position, the torsion spring 7 is in a deformation state, when the rock wool sound insulation plate is to be pasted and installed on a building wall, the height of the first wedge plate 123 is adjusted according to the height to be pasted of the rock wool sound insulation plate, the second screw 122 is rotated to enable the first wedge plate 123 to move downwards, after the first wedge plate 123 moves downwards to a proper position, the second screw 122 is stopped to rotate, then the rock wool sound insulation plate is tightly attached to the suction cup 5 and supported, glue is smeared on the rock wool sound insulation plate, the double-shaft motor 112 is started to enable the rotary rod 113 to rotate, the rotary rod 113 rotates through the bevel gear 114 to enable the first screw 2 to rotate, the first moving plate 3 moves upwards to drive the support plate 4, the suction cup 5, the blocking block 6, the torsion spring 7 and the spiral groove rod 8 to move upwards, due to the arrangement of the convex rod 10, the spiral groove rod 8 can rotate when moving upwards, the spiral groove rod 8 rotates to drive the blocking block 6 to rotate to block the suction disc 5, the torsion spring 7 is reset along with the spiral groove rod, the blocking block 6 rotates to drive the second wedge block 135 to rotate, the second wedge block 135 rotates to press the first wedge block 134 to move downwards, the second spring 133 stretches along with the second wedge block, the blocking block 6 rotates to block the suction disc 5, the rock wool sound insulation plate is manually pushed rightwards in the process of blocking the suction disc 5, so that air in the suction disc 5 can be extruded, the rock wool sound insulation plate is tightly adsorbed on the suction disc 5, then the rock wool sound insulation plate is not required to be supported, then the suction disc 5 moves upwards to drive the rock wool sound insulation plate to move upwards, the second wedge plate 126 moves upwards along with the upward movement of the support plate 4, and when the second wedge plate 126 moves upwards to be in contact with the first wedge plate 123, the second wedge plate 126 continues to move upwards and is extruded by the first wedge plate 123, the second wedge plate 126 moves leftwards along with the second wedge plate 126, the second wedge plate 126 moves leftwards to push the supporting plate 4 to move leftwards, the first spring 125 is compressed along with the second wedge plate, the supporting plate 4 moves leftwards to drive the sucking disc 5, the blocking block 6, the second wedge block 135 and the rock wool sound insulation plate to move leftwards, the second wedge block 135 is separated from the first wedge block 134, under the reset action of the second spring 133, the first wedge block 134 moves upwards to reset and is aligned with the second wedge block 135 again, the rock wool sound insulation plate is tightly attached to a building wall after moving leftwards to finish attaching and mounting, after the rock wool sound insulation plate is attached to the building wall after the glue is dried, the double-shaft motor 112 is started to reversely rotate the rotary rod 113, the reverse rotation of the rotating rod 113 can make the first screw rod 2 reversely rotate through the bevel gear 114, the reverse rotation of the first screw rod 2 can make the first moving plate 3 move downwards to reset, the first moving plate 3 moves downwards to drive the supporting plate 4, the sucker 5, the blocking block 6, the torsion spring 7, the spiral groove rod 8 and the second wedge plate 126 to move downwards, the sucker 5 has elasticity, so that deformation can not pull the rock wool sound insulation plate on the building wall to move when the sucker 5 moves downwards, when the second wedge plate 126 moves downwards to be separated from the first wedge plate 123, the supporting plate 4 can move rightwards to reset under the reset action of the first spring 125, the supporting plate 4 moves rightwards to drive the sucker 5, the blocking block 6 and the second wedge block 135 to move rightwards, the sucker 5 has elasticity, so that continuous deformation can not pull the rock wool sound insulation plate on the building wall to move when the sucker 5 moves rightwards, when the second wedge block 135 moves rightwards, the second wedge block 135 is extruded by the first wedge block 134, the second wedge block 135 drives the blocking block 6 to rotate and open, the torsion spring 7 deforms along with the second wedge block, the blocking block 6 does not block the suction disc 5 after rotating and opening, external air enters the suction disc 5 along with the second wedge block, the suction disc 5 loosens the rock wool sound insulation board, when the second wedge block 135 moves rightwards and is not extruded by the first wedge block 134, the blocking block 6 can rotate and reset with the second wedge block 135 under the reset action of the torsion spring 7, the suction disc 5 is blocked by the blocking block 6 along with the second wedge block, when the spiral groove rod 8 moves downwards to be in contact with the convex rod 10, the spiral groove rod 8 continues to move downwards and can rotate reversely, the spiral groove rod 8 drives the blocking block 6 and the second wedge block 135 to rotate reversely, the torsion spring 7 deforms along with the second wedge block, and the blocking block 6 is opened again along with the second wedge block after rotating reversely, and the blocking disc 5 is not blocked. After the first moving plate 3 moves downwards to reset, the double-shaft motor 112 is turned off, the operation is repeated, and the pasting and mounting work of the rock wool acoustic panel can be repeated. So sucking disc 5 of this device can adsorb rock wool acoustic celotex board, sucking disc 5 upwards moves and can drive rock wool acoustic celotex board upwards to suitable height, sucking disc 5 carries rock wool acoustic celotex board upwards to suitable height after, under the extrusion effect of first wedge 123, can make sucking disc 5 take rock wool acoustic celotex board to remove left and paste and install on the building wall, can make the sprue 6 rotate and open through first wedge 134 extrusion second wedge 135, in the external air gets into sucking disc 5 along with it, sucking disc 5 loosens the rock wool acoustic celotex board thereupon, thereby reached the effect that can make rock wool acoustic celotex board and building wall hug closely and paste the installation automatically.

Example 2

On the basis of embodiment 1, combining fig. 1, 10 and 11, the device further comprises a supporting mechanism 14, the lower parts of the outer side surfaces of the supporting frames 1 are connected with the supporting mechanism 14, the supporting mechanism 14 is used for supporting the rock wool sound insulation plates, the supporting mechanism 14 comprises guide blocks 141, second moving plates 142, fixing rods 143, third springs 144 and clamping blocks 145, the lower parts of the outer side surfaces of the two supporting frames 1 are respectively connected with the guide blocks 141, the tops of the guide blocks 141 are slidably connected with the second moving plates 142, the second moving plates 142 are used for supporting the rock wool sound insulation plates, the inner sides of the two second moving plates 142 are respectively connected with the fixing rods 143, the two fixing rods 143 are slidably connected with the clamping blocks 145, the clamping blocks 145 are used for clamping the rock wool sound insulation plates, and the third springs 144 are respectively connected between the two clamping blocks 145 and the two second moving plates 142.

The rock wool sound insulation board moves downwards along the inclined plane of the second movable plate 142 from the area, when the rock wool sound insulation board moves downwards, the rock wool sound insulation board simultaneously moves rightwards under the extrusion of the inclined plane of the second movable plate 142, the rock wool sound insulation board moves rightwards to push the clamping block 145 to move rightwards, the third spring 144 stretches along with the rock wool sound insulation board, and thus the rock wool sound insulation board can be supported and limited through the cooperation among the third spring 144, the clamping block 145 and the second movable plate 142, the rock wool sound insulation board is prevented from moving or shaking by itself, so that the rock wool sound insulation board is not required to be manually supported, and glue can be conveniently smeared on the rock wool sound insulation board. The second moving plate 142 is manually pushed rightward, so that the rock wool acoustic panel can be moved rightward to be adsorbed on the suction disc 5, when the suction disc 5 carries the rock wool acoustic panel to move upward to be separated from the clamping block 145 and the second moving plate 142, the clamping block 145 can be moved leftward to reset under the action of the third spring 144, and then the second moving plate 142 is moved leftward to reset.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 12 and 13, the device further comprises a pushing mechanism 15, a pushing mechanism 15 is arranged between the supporting plate 4 and the second moving plate 142, the pushing mechanism 15 is used for driving the second moving plate 142 to move rightwards to enable the rock wool sound insulation plate to be adsorbed on the suction cup 5, the pushing mechanism 15 comprises a third wedge plate 151, a contact plate 152, a second guide rod 153 and a fourth spring 154, the lower parts of the front side and the rear side of the supporting plate 4 are respectively connected with the contact plate 152, the inner side surfaces of the two second moving plates 142 are respectively connected with the third wedge plate 151, the two third wedge plates 151 are respectively contacted with the two contact plates 152, the right sides of the bottoms of the two second moving plates 142 are respectively connected with the second guide rods 153, the two second guide rods 153 are respectively connected with the two guide blocks 141 in a sliding mode, and the fourth spring 154 is respectively connected between the two second moving plates 142 and the two guide blocks 141.

Initially, the contact plate 152 extrudes the third wedge plate 151, the fourth spring 154 is in a stretched state, when the supporting plate 4 moves upwards, the contact plate 152 is driven to move upwards, when the contact plate 152 moves upwards to be separated from the third wedge plate 151, the second moving plate 142 can move rightwards under the reset action of the fourth spring 154, and the second moving plate 142 can push the rock wool sound insulation plate to move rightwards to be adsorbed on the sucker 5, so that the second moving plate 142 does not need to be manually pushed rightwards to be adsorbed on the sucker 5; after the supporting plate 4 drives the contact plate 152 to move downwards to contact with the third wedge plate 151, the contact plate 152 continues to move downwards to push the third wedge plate 151 to move leftwards, the third wedge plate 151 moves leftwards to drive the second moving plate 142 to move leftwards for resetting, and the fourth spring 154 is stretched accordingly.

Example 4

On the basis of embodiment 3, combining fig. 1 and 14, the device further comprises a moving mechanism 16, the lower part of the supporting frame 1 is provided with the moving mechanism 16, the moving mechanism 16 is used for assisting the device to move, the moving mechanism 16 comprises connecting rods 161, rollers 162, clamping plates 163 and placing plates 164, the connecting rods 161 are symmetrically connected between the lower parts of the two supporting frames 1 in a left-right mode, the rollers 162 are rotationally connected to the two connecting rods 161, the clamping plates 163 are slidingly connected between the right sides of the lower parts of the two supporting frames 1, clamping grooves clamped with the clamping plates 163 are uniformly spaced on the right side rollers 162 along the circumferential direction, the clamping plates 163 are used for clamping the right side rollers 162 so as to prevent the device from moving by itself, the placing plates 164 are connected to the lower parts of the inner side surfaces of the two supporting frames 1, and the placing plates 164 are used for placing installation tools.

Can place the instrument commonly used to installation rock wool acoustic celotex board on placing board 164, so can conveniently take the mounting tool, promote support frame 1, gyro wheel 162 rotates thereupon, so can be convenient, swift remove this device, after this device removes to suitable position, promote cardboard 163 left to make cardboard 163 card go into the draw-in groove on the right side gyro wheel 162, so can fix right side gyro wheel 162, and then can prevent this device from moving by oneself, when wanting to remove this device again, make cardboard 163 remove right and reset with right side gyro wheel 162 loosen can.

The foregoing examples have shown only the preferred embodiments of the application, which are described in more detail and are not to be construed as limiting the scope of the application. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (8)

1. The utility model provides a building acoustic celotex board fixed mounting equipment, including support frame (1), first screw rod (2), first movable plate (3), backup pad (4), sucking disc (5), chock piece (6), torsional spring (7), helical groove pole (8), fixed block (9) and protruding pole (10), support frame (1) are equipped with two, sliding connection has first movable plate (3) between two support frames (1), all rotation type is connected with first screw rod (2) on two support frames (1), two first screw rods (2) all are connected with first movable plate (3) through threaded connection's mode, sliding connection has backup pad (4) on first movable plate (3), backup pad (4) upper portion is connected with sucking disc (5), sucking disc (5) right side rotation is connected with chock piece (6), be connected with torsional spring (7) between chock piece (6) and sucking disc (5), the bottom is connected with helical groove pole (8), rear side support frame (1) right flank lower part is connected with fixed block (9), protruding pole (10) are connected with protruding pole (8) in the mode of fixed block (9) left side, it is connected with protruding pole (12) and sliding connection (11) are characterized in that sliding mechanism (12) are still closed, a driving mechanism (11) is arranged between the support frame (1) and the first screw (2), a sliding mechanism (12) is arranged between the rear support frame (1) and the support plate (4), and an opening and closing mechanism (13) is arranged between the first movable plate (3) and the blocking block (6).

2. A building acoustic panel mounting fixture according to claim 1, characterized in that the suction cup (5) has elasticity.

3. The building sound insulation board fixed mounting device according to claim 2, wherein the driving mechanism (11) comprises a first fixed board (111), a double-shaft motor (112), a rotating rod (113) and bevel gears (114), the first fixed board (111) is connected between the lower parts of the right side surfaces of the two supporting frames (1), the double-shaft motor (112) is mounted in the middle of the top of the first fixed board (111), the rotating rods (113) are connected to output shafts on two sides of the double-shaft motor (112), the bevel gears (114) are connected to the outer ends of the two rotating rods (113) and the lower parts of the two first screw rods (2), and the two adjacent bevel gears (114) are meshed.

4. A building acoustic panel fixed mounting apparatus according to claim 3, wherein the sliding mechanism (12) comprises a guide plate (121), a second screw (122), a first wedge plate (123), a first guide rod (124), a first spring (125) and a second wedge plate (126), the guide plate (121) is connected to the upper right side surface of the rear support frame (1), the first wedge plate (123) is connected to the guide plate (121) in a sliding manner, the second screw (122) is connected to the guide plate (121) in a rotating manner, the second screw (122) is connected to the first wedge plate (123) in a threaded manner, the second wedge plate (126) is connected to the lower right side surface of the support plate (4), the second wedge plate (126) can be in contact with the first wedge plate (123), the first guide rod (124) is connected to the first guide rod (124) in a sliding manner, the first spring (125) is sleeved on the first guide rod (124), and the first spring (125) is connected to the first wedge plate (3) in a sliding manner, and the first wedge plate (125) is connected to the other end of the first spring (4).

5. The building sound insulation board fixed mounting device according to claim 4, wherein the opening and closing mechanism (13) comprises a second fixed board (131), a guide rod (132), a second spring (133), a first wedge block (134) and a second wedge block (135), the front side of the right side of the first movable board (3) is connected with the second fixed board (131), the guide rod (132) is connected to the upper portion in the second fixed board (131), the first wedge block (134) is connected to the second fixed board (131) in a sliding manner, the second spring (133) is connected between the first wedge block (134) and the second fixed board (131), the second wedge block (135) is connected to the upper portion of the blocking block (6), and the second wedge block (135) can be contacted with the first wedge block (134).

6. The building sound insulation board fixed mounting device according to claim 5, further comprising a supporting mechanism (14), wherein the lower parts of the outer side surfaces of the supporting frames (1) are connected with the supporting mechanism (14), the supporting mechanism (14) comprises guide blocks (141), second moving plates (142), fixing rods (143), third springs (144) and clamping blocks (145), the lower parts of the outer side surfaces of the two supporting frames (1) are respectively connected with the guide blocks (141), the tops of the guide blocks (141) are slidably connected with the second moving plates (142), the inner sides of the two second moving plates (142) are respectively connected with the fixing rods (143), the clamping blocks (145) are slidably connected with the two clamping blocks (145), and the third springs (144) are respectively connected between the two clamping blocks (145) and the two second moving plates (142).

7. The building sound insulation board fixed mounting device according to claim 6, further comprising a pushing mechanism (15), wherein the pushing mechanism (15) is arranged between the supporting board (4) and the second moving board (142), the pushing mechanism (15) comprises a third wedge-shaped board (151), a contact board (152), a second guide rod (153) and a fourth spring (154), the contact boards (152) are connected to the lower portions of the front side and the rear side of the supporting board (4), the third wedge-shaped boards (151) are connected to the inner side faces of the two second moving boards (142), the two third wedge-shaped boards (151) are respectively contacted with the two contact boards (152), the right sides of the bottoms of the two second moving boards (142) are respectively connected with the second guide rods (153), the two second guide rods (153) are respectively connected with the two guide blocks (141) in a sliding mode, and the fourth springs (154) are respectively connected between the two second moving boards (142) and the two guide blocks (141).

8. The building sound insulation board fixed mounting equipment according to claim 7, further comprising a moving mechanism (16), wherein the lower portion of the supporting frame (1) is provided with the moving mechanism (16), the moving mechanism (16) comprises a connecting rod (161), rollers (162), clamping plates (163) and placing plates (164), the connecting rods (161) are symmetrically connected between the lower portions of the two supporting frames (1) left and right, the rollers (162) are rotationally connected to the two connecting rods (161), the clamping plates (163) are slidingly connected between the right sides of the lower portions of the two supporting frames (1), clamping grooves which are clamped with the clamping plates (163) are uniformly spaced on the right side rollers (162) along the circumferential direction, and the placing plates (164) are connected to the lower portions of the inner side faces of the two supporting frames (1).